Tianli Han scite author profile

Anhui Provincial Engineering Laboratory for Engineering appropriate cathode materials is significant for the development of high-performance aluminum-ion (Al-ion) batteries. Here, a pyramidal metal-organic frameworks (MOFs)-derived FeP@CoP composite was developed as cathode, which exhibits good stability and high capacity. FeP@CoP cathode maintains a high capacity of 168 mAh g À 1 after 200 cycles, and displays a stable rate-performance at both room and low temperatures of À 10 °C. After three rounds of rate-performance cycling, the FeP@CoP composite recovers 178.2 mAh g À 1 at 0.3 A g À 1 . Moreover, density functional theory (DFT) calculations verify improved electrontransfer kinetics with narrowed band gap and enhanced density of states. These findings inspire a broad set of studies on MOFs-derived composites for high-performance secondary batteries.

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A Color-Changeable “Pearl” for Visually Displaying Chemical Complexation Reactions

Han

Yang

Zhu

et al. 2022

J. Chem. Educ.

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An experimental design by combining hydrogel and ethylenediaminetetraacetic acid disodium salt (EDTA) for visually displaying chemical complexation reactions is developed. The Na + ions on the α-L-guluronic acid (G) unit of the sodium alginate molecule undergo an ion exchange with a divalent cation, so that the G units are stacked to create a cross-linked network, forming a hydrogel. EDTA is inserted into the as-prepared hydrogel, producing transparent hydrogel microspheres containing EDTA, which are considered to be colorchangeable pearls on the basis of the chelation of EDTA when reacting with several metal ions. By using different stability constants of the same typed coordination complexes, the color of pearls is changeable. The process and mechanism of the complex reaction are investigated by using elemental mapping, Fourier transform infrared reflection (FTIR) and Raman spectra. Moreover, all the instruments and chemicals for this experiment are included in one single portable experimental kit. The kit is small, easy to carry, cheap, and safe, and it enables easy display of related chemical reactions. By using the developed kit, the students' hands-on experience can be improved. The experimental operation is simple, green, safe, and interesting, which enables the engineering of color-changeable pearls to be broadly used including the chemical experiment courses in universities, experimental teaching in schools, and the chemical popularization activities for the public.

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A Novel Mechanically Robust Leaf‐Shaped Tin Dioxide Li‐Ion Battery Anode and Its Dynamic Structural Transformation and Electron‐Transfer Simulation

et al. 2020

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Encapsulating Tin Nanoflowers into Microcapsules for High‐Rate‐Performance Secondary Battery Anodes through In Situ Polymerizing Oil‐in‐Water Interface

Han

Ding

et al. 2020

Energy Tech

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Tianli Han

A blade-like CoZn metal organic framework-based flexible quasi-solid Zn-ion battery

A Pyramidal Metal–Organic Frameworks‐Derived FeP@CoP Aluminium‐Ion Battery Cathode Displaying Low‐Temperature Tolerance and Fast Electron Transfer Kinetics

A Color-Changeable “Pearl” for Visually Displaying Chemical Complexation Reactions

A Novel Mechanically Robust Leaf‐Shaped Tin Dioxide Li‐Ion Battery Anode and Its Dynamic Structural Transformation and Electron‐Transfer Simulation

Encapsulating Tin Nanoflowers into Microcapsules for High‐Rate‐Performance Secondary Battery Anodes through In Situ Polymerizing Oil‐in‐Water Interface

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